# -*- coding: utf-8 -*- """Radiotap""" from __future__ import print_function from __future__ import absolute_import import socket from . import dpkt from . import ieee80211 from .decorators import deprecated # Ref: http://www.radiotap.org # Fields Ref: http://www.radiotap.org/defined-fields/all # Present flags _TSFT_MASK = 0x1000000 _FLAGS_MASK = 0x2000000 _RATE_MASK = 0x4000000 _CHANNEL_MASK = 0x8000000 _FHSS_MASK = 0x10000000 _ANT_SIG_MASK = 0x20000000 _ANT_NOISE_MASK = 0x40000000 _LOCK_QUAL_MASK = 0x80000000 _TX_ATTN_MASK = 0x10000 _DB_TX_ATTN_MASK = 0x20000 _DBM_TX_POWER_MASK = 0x40000 _ANTENNA_MASK = 0x80000 _DB_ANT_SIG_MASK = 0x100000 _DB_ANT_NOISE_MASK = 0x200000 _RX_FLAGS_MASK = 0x400000 _CHANNELPLUS_MASK = 0x200 _EXT_MASK = 0x1 _TSFT_SHIFT = 24 _FLAGS_SHIFT = 25 _RATE_SHIFT = 26 _CHANNEL_SHIFT = 27 _FHSS_SHIFT = 28 _ANT_SIG_SHIFT = 29 _ANT_NOISE_SHIFT = 30 _LOCK_QUAL_SHIFT = 31 _TX_ATTN_SHIFT = 16 _DB_TX_ATTN_SHIFT = 17 _DBM_TX_POWER_SHIFT = 18 _ANTENNA_SHIFT = 19 _DB_ANT_SIG_SHIFT = 20 _DB_ANT_NOISE_SHIFT = 21 _RX_FLAGS_SHIFT = 22 _CHANNELPLUS_SHIFT = 10 _EXT_SHIFT = 0 # Flags elements _FLAGS_SIZE = 2 _CFP_FLAG_SHIFT = 0 _PREAMBLE_SHIFT = 1 _WEP_SHIFT = 2 _FRAG_SHIFT = 3 _FCS_SHIFT = 4 _DATA_PAD_SHIFT = 5 _BAD_FCS_SHIFT = 6 _SHORT_GI_SHIFT = 7 # Channel type _CHAN_TYPE_SIZE = 4 _CHANNEL_TYPE_SHIFT = 4 _CCK_SHIFT = 5 _OFDM_SHIFT = 6 _TWO_GHZ_SHIFT = 7 _FIVE_GHZ_SHIFT = 8 _PASSIVE_SHIFT = 9 _DYN_CCK_OFDM_SHIFT = 10 _GFSK_SHIFT = 11 _GSM_SHIFT = 12 _STATIC_TURBO_SHIFT = 13 _HALF_RATE_SHIFT = 14 _QUARTER_RATE_SHIFT = 15 # Flags offsets and masks _FCS_SHIFT = 4 _FCS_MASK = 0x10 class Radiotap(dpkt.Packet): """Radiotap. TODO: Longer class information.... Attributes: __hdr__: Header fields of Radiotap. TODO. """ __hdr__ = ( ('version', 'B', 0), ('pad', 'B', 0), ('length', 'H', 0), ('present_flags', 'I', 0) ) @property def tsft_present(self): return (self.present_flags & _TSFT_MASK) >> _TSFT_SHIFT @tsft_present.setter def tsft_present(self, val): self.present_flags |= val << _TSFT_SHIFT @property def flags_present(self): return (self.present_flags & _FLAGS_MASK) >> _FLAGS_SHIFT @flags_present.setter def flags_present(self, val): self.present_flags |= val << _FLAGS_SHIFT @property def rate_present(self): return (self.present_flags & _RATE_MASK) >> _RATE_SHIFT @rate_present.setter def rate_present(self, val): self.present_flags |= val << _RATE_SHIFT @property def channel_present(self): return (self.present_flags & _CHANNEL_MASK) >> _CHANNEL_SHIFT @channel_present.setter def channel_present(self, val): self.present_flags |= val << _CHANNEL_SHIFT @property def fhss_present(self): return (self.present_flags & _FHSS_MASK) >> _FHSS_SHIFT @fhss_present.setter def fhss_present(self, val): self.present_flags |= val << _FHSS_SHIFT @property def ant_sig_present(self): return (self.present_flags & _ANT_SIG_MASK) >> _ANT_SIG_SHIFT @ant_sig_present.setter def ant_sig_present(self, val): self.present_flags |= val << _ANT_SIG_SHIFT @property def ant_noise_present(self): return (self.present_flags & _ANT_NOISE_MASK) >> _ANT_NOISE_SHIFT @ant_noise_present.setter def ant_noise_present(self, val): self.present_flags |= val << _ANT_NOISE_SHIFT @property def lock_qual_present(self): return (self.present_flags & _LOCK_QUAL_MASK) >> _LOCK_QUAL_SHIFT @lock_qual_present.setter def lock_qual_present(self, val): self.present_flags |= val << _LOCK_QUAL_SHIFT @property def tx_attn_present(self): return (self.present_flags & _TX_ATTN_MASK) >> _TX_ATTN_SHIFT @tx_attn_present.setter def tx_attn_present(self, val): self.present_flags |= val << _TX_ATTN_SHIFT @property def db_tx_attn_present(self): return (self.present_flags & _DB_TX_ATTN_MASK) >> _DB_TX_ATTN_SHIFT @db_tx_attn_present.setter def db_tx_attn_present(self, val): self.present_flags |= val << _DB_TX_ATTN_SHIFT @property def dbm_tx_power_present(self): return (self.present_flags & _DBM_TX_POWER_MASK) >> _DBM_TX_POWER_SHIFT @dbm_tx_power_present.setter def dbm_tx_power_present(self, val): self.present_flags |= val << _DBM_TX_POWER_SHIFT @property def ant_present(self): return (self.present_flags & _ANTENNA_MASK) >> _ANTENNA_SHIFT @ant_present.setter def ant_present(self, val): self.present_flags |= val << _ANTENNA_SHIFT @property def db_ant_sig_present(self): return (self.present_flags & _DB_ANT_SIG_MASK) >> _DB_ANT_SIG_SHIFT @db_ant_sig_present.setter def db_ant_sig_present(self, val): self.present_flags |= val << _DB_ANT_SIG_SHIFT @property def db_ant_noise_present(self): return (self.present_flags & _DB_ANT_NOISE_MASK) >> _DB_ANT_NOISE_SHIFT @db_ant_noise_present.setter def db_ant_noise_present(self, val): self.present_flags |= val << _DB_ANT_NOISE_SHIFT @property def rx_flags_present(self): return (self.present_flags & _RX_FLAGS_MASK) >> _RX_FLAGS_SHIFT @rx_flags_present.setter def rx_flags_present(self, val): self.present_flags |= val << _RX_FLAGS_SHIFT @property def chanplus_present(self): return (self.present_flags & _CHANNELPLUS_MASK) >> _CHANNELPLUS_SHIFT @chanplus_present.setter def chanplus_present(self, val): self.present_flags |= val << _CHANNELPLUS_SHIFT @property def ext_present(self): return (self.present_flags & _EXT_MASK) >> _EXT_SHIFT @ext_present.setter def ext_present(self, val): self.present_flags |= val << _EXT_SHIFT def unpack(self, buf): dpkt.Packet.unpack(self, buf) self.data = buf[socket.ntohs(self.length):] self.fields = [] buf = buf[self.__hdr_len__:] # decode each field into self. (eg. self.tsft) as well as append it self.fields list field_decoder = [ ('tsft', self.tsft_present, self.TSFT), ('flags', self.flags_present, self.Flags), ('rate', self.rate_present, self.Rate), ('channel', self.channel_present, self.Channel), ('fhss', self.fhss_present, self.FHSS), ('ant_sig', self.ant_sig_present, self.AntennaSignal), ('ant_noise', self.ant_noise_present, self.AntennaNoise), ('lock_qual', self.lock_qual_present, self.LockQuality), ('tx_attn', self.tx_attn_present, self.TxAttenuation), ('db_tx_attn', self.db_tx_attn_present, self.DbTxAttenuation), ('dbm_tx_power', self.dbm_tx_power_present, self.DbmTxPower), ('ant', self.ant_present, self.Antenna), ('db_ant_sig', self.db_ant_sig_present, self.DbAntennaSignal), ('db_ant_noise', self.db_ant_noise_present, self.DbAntennaNoise), ('rx_flags', self.rx_flags_present, self.RxFlags) ] for name, present_bit, parser in field_decoder: if present_bit: field = parser(buf) field.data = b'' setattr(self, name, field) self.fields.append(field) buf = buf[len(field):] if len(self.data) > 0: if self.flags_present and self.flags.fcs: self.data = ieee80211.IEEE80211(self.data, fcs=self.flags.fcs) else: self.data = ieee80211.IEEE80211(self.data) class Antenna(dpkt.Packet): __hdr__ = ( ('index', 'B', 0), ) class AntennaNoise(dpkt.Packet): __hdr__ = ( ('db', 'B', 0), ) class AntennaSignal(dpkt.Packet): __hdr__ = ( ('db', 'B', 0), ) class Channel(dpkt.Packet): __hdr__ = ( ('freq', 'H', 0), ('flags', 'H', 0), ) class FHSS(dpkt.Packet): __hdr__ = ( ('set', 'B', 0), ('pattern', 'B', 0), ) class Flags(dpkt.Packet): __hdr__ = ( ('val', 'B', 0), ) @property def fcs(self): return (self.val & _FCS_MASK) >> _FCS_SHIFT # TODO statement seems to have no effect @fcs.setter def fcs(self, v): (v << _FCS_SHIFT) | (self.val & ~_FCS_MASK) class LockQuality(dpkt.Packet): __hdr__ = ( ('val', 'H', 0), ) class RxFlags(dpkt.Packet): __hdr__ = ( ('val', 'H', 0), ) class Rate(dpkt.Packet): __hdr__ = ( ('val', 'B', 0), ) class TSFT(dpkt.Packet): __hdr__ = ( ('usecs', 'Q', 0), ) class TxAttenuation(dpkt.Packet): __hdr__ = ( ('val', 'H', 0), ) class DbTxAttenuation(dpkt.Packet): __hdr__ = ( ('db', 'H', 0), ) class DbAntennaNoise(dpkt.Packet): __hdr__ = ( ('db', 'B', 0), ) class DbAntennaSignal(dpkt.Packet): __hdr__ = ( ('db', 'B', 0), ) class DbmTxPower(dpkt.Packet): __hdr__ = ( ('dbm', 'B', 0), ) def test_Radiotap(): s = b'\x00\x00\x00\x18\x6e\x48\x00\x00\x00\x02\x6c\x09\xa0\x00\xa8\x81\x02\x00\x00\x00\x00\x00\x00\x00' rad = Radiotap(s) assert(rad.version == 0) assert(rad.present_flags == 0x6e480000) assert(rad.tsft_present == 0) assert(rad.flags_present == 1) assert(rad.rate_present == 1) assert(rad.channel_present == 1) assert(rad.fhss_present == 0) assert(rad.ant_sig_present == 1) assert(rad.ant_noise_present == 1) assert(rad.lock_qual_present == 0) assert(rad.db_tx_attn_present == 0) assert(rad.dbm_tx_power_present == 0) assert(rad.ant_present == 1) assert(rad.db_ant_sig_present == 0) assert(rad.db_ant_noise_present == 0) assert(rad.rx_flags_present == 1) assert(rad.channel.freq == 0x6c09) assert(rad.channel.flags == 0xa000) assert(len(rad.fields) == 7) def test_fcs(): s = b'\x00\x00\x1a\x00\x2f\x48\x00\x00\x34\x8f\x71\x09\x00\x00\x00\x00\x10\x0c\x85\x09\xc0\x00\xcc\x01\x00\x00' rt = Radiotap(s) assert(rt.flags_present == 1) assert(rt.flags.fcs == 1) if __name__ == '__main__': test_Radiotap() test_fcs() print('Tests Successful...')